Heat transfer . Volume 2 : radiation and exchangers / / Yves Jannot, Christian Moyne, Alain Degiovanni
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| Autore: |
Jannot Yves
|
| Titolo: |
Heat transfer . Volume 2 : radiation and exchangers / / Yves Jannot, Christian Moyne, Alain Degiovanni
|
| Pubblicazione: | London, England ; Hoboken, NJ : , : ISTE Ltd : , : John Wiley & Sons, Inc., , [2023] |
| ©2023 | |
| Descrizione fisica: | 1 online resource (298 pages) |
| Disciplina: | 621 |
| Soggetto topico: | Thermodynamics |
| Persona (resp. second.): | MoyneChristian |
| DegiovanniAlain | |
| Nota di bibliografia: | Includes bibliographical references and index. |
| Nota di contenuto: | Cover -- Title Page -- Copyright Page -- Contents -- Preface -- Nomenclature -- Chapter 1. Heat Transfer by Radiation Between Surfaces -- 1.1. General: definitions -- 1.1.1. Type of radiation -- 1.1.2. Definitions -- 1.2. Laws of radiation -- 1.2.1. Lambert's law -- 1.2.2. Physical laws -- 1.3. Reciprocal radiation of several surfaces -- 1.3.1. Radiosity and lost net flux -- 1.3.2. Geometric form factor -- 1.3.3. Flux calculation -- 1.3.4. Electrical analogy -- 1.4. Emission and absorption of gases -- 1.5. Solar radiation -- 1.5.1. Introduction -- 1.5.2. Geometric aspects -- 1.5.3. Atmospheric radiation -- 1.5.4. Solar radiation on the ground -- 1.6. Corrected exercises -- 1.6.1. Solar irradiance -- 1.6.2. Transmission of radiation -- 1.6.3. Dew formation -- 1.6.4. Influence of radiation on temperature measurements -- 1.6.5. Outdoor air temperature measurement -- 1.6.6. Apparent emissivity of a groove -- 1.6.7. Thermal equilibrium of a satellite -- 1.6.8. Heating of a filament bulb -- 1.6.9. Heat transfer by radiation in a refrigerated display case -- 1.6.10. Heating of a wall by radiation -- 1.6.11. Cooling a teapot -- 1.6.12. Study of thermal comfort -- 1.6.13. Calculation of the global loss coefficient of double glazing -- Chapter 2. Radiation Heat Transfer in Semi-transparent Media -- 2.1. General -- 2.2. Definitions -- 2.2.1. Monochromatic coefficients -- 2.2.2. Luminance and radiative heat flux vector -- 2.3. Radiation balance -- 2.3.1. Radiation balance equation -- 2.3.2. Divergence of radiative heat flux vector -- 2.3.3. Example of radiation balance: the semi-transparent wall -- 2.3.4. Integral form of the radiation balance equation or formal solution -- 2.4. Special cases -- 2.4.1. 1D non-scattering medium (with azimuthal symmetry) -- 2.4.2. Medium neither absorbent nor emissive -- 2.4.3. Optically thick medium. |
| 2.5. Conditions at the boundaries -- 2.5.1. Transparent boundaries -- 2.5.2. Opaque and black boundaries -- 2.5.3. Opaque boundaries, with diffuse emission and reflection -- 2.5.4. Opaque boundaries, diffuse emission, specular reflection -- 2.5.5. Semi-transparent interface -- 2.6. Example of an approximate solution: two-flux or Schuster-Schwarzschild approximation -- 2.6.1. Radiation balance -- 2.6.2. Special case of the gray medium -- 2.6.3. Special case of the gray and cold environment -- 2.7. Conduction-radiation coupling -- 2.7.1. Optically thick, gray and isotropically scattering medium -- 2.7.2. Purely scattering medium -- 2.7.3. Thin film model (low optical thickness) -- 2.7.4. Quadrupole for a non-scattering semi-transparent medium -- 2.8. Corrected exercises -- 2.8.1. Luminance of a semi-infinite medium -- 2.8.2. Measuring the temperature of an oven through a piece of glass -- 2.8.3. Radiative transfer between two opaque plates -- 2.8.4. Characterization of a cold semi-transparent medium -- 2.8.5. Characterization of a thin semi-transparent medium by flash method -- 2.8.6. Modeling the equivalent thermal conductivity of glass wool -- 2.8.7. Modeling a thermal conductivity measurement by hot plates -- 2.8.8. Calculation of the radiative properties of a plane wall -- Chapter 3. Introduction to Heat Exchangers -- 3.1. Double-pipe heat exchangers -- 3.1.1. General: definitions -- 3.1.2. Expression of the exchanged heat flow rate -- 3.1.3. Efficiency of a heat exchanger -- 3.1.4. Number of transfer units -- 3.1.5. Calculation of a heat exchanger -- 3.2. Complex bundle heat exchangers -- 3.2.1. General -- 3.2.2. 1-2 Heat exchanger -- 3.2.3. 2-4 Heat exchanger -- 3.2.4. Cross flow heat exchanger -- 3.2.5. Refrigeration heat exchangers -- 3.3. Corrected exercises -- 3.3.1. Comparison of different types of heat exchangers. | |
| 3.3.2. Calculation of a cross flow heat exchanger -- 3.3.3. Calculation of a plate heat exchanger -- 3.3.4. Calculation of an embedded evaporator -- 3.3.5. Sizing a condenser -- Chapter 4. Flat Plate Solar Collectors -- 4.1. Principle -- 4.2. Global heat balance -- 4.2.1. Efficiencies of a solar collector -- 4.3. Thermal balances of the different constituents -- 4.3.1. Type 1 covered solar collector -- 4.3.2. Type 2 covered solar collector -- 4.3.3. Type 3 uncovered solar collector -- 4.3.4. Type 4 uncovered solar collector -- 4.3.5. Resolution method -- 4.4. Heat flow rate gained by the fluid as a function of the temperatures -- 4.4.1. Type 1 and 3 collectors -- 4.4.2. Type 2 and 4 collectors -- 4.5. Other characteristic quantities -- 4.5.1. Threshold radiation -- 4.5.2. Limit temperature -- 4.5.3. Pressure loss -- 4.6. Calculation method for a solar collector -- 4.6.1. Simulation of a solar collector -- 4.6.2. Simulation of a solar collector coupled to a storage -- 4.6.3. Dimensioning -- 4.6.4. Approximate calculation -- 4.7. Corrected exercises -- 4.7.1. Calculation of the loss coefficient of different types of collectors -- 4.7.2. Air heating in a solar collector -- 4.7.3. Solar water heater with covered tube collector -- 4.7.4. Collector-storage type solar water heater -- 4.7.5. Separate elements solar water heater -- 4.7.6. Collector with a cover semi-transparent to IR -- Appendices -- References -- Index -- Summary of Volume 1 -- EULA. | |
| Titolo autorizzato: | Heat transfer |
| ISBN: | 1-394-22804-X |
| 1-394-22802-3 | |
| Formato: | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione: | Inglese |
| Record Nr.: | 9910735561803321 |
| Lo trovi qui: | Univ. Federico II |
| Opac: | Controlla la disponibilità qui |